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Company Information:

Company Name: Mathematical Systems & Solutions, Inc.
City: Pasadena
State: CA
Zip+4: -
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No
Website URL: N/A
Phone: (626) 395-4532

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $249,153.00 2
SBIR Phase II $437,450.00 1
STTR Phase I $719,243.00 7
STTR Phase II $1,999,952.00 3

Award List:

Evaluation of High-Frequency Electromagnetic Scattering via High-Order Multiple-Scattering Integral Asymptotics

Award Year / Program / Phase: 2001 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: UNIV. OF MINNESOTA, SCHOOL OF MATH.
Principal Investigator: Oscar P. Bruno, Vice-President
Award Amount: $100,000.00
RI Contact: Kevin McKoskey
Abstract:
The present text proposes development of a new approach for the numerical evaluation of high-frequency electromagnetic scattering for structures of interest to DoD. This approach, which relies on high-order high-frequency integral asymptotics, is entirelyrigorous: it should account fully for all… More

Advanced Antenna Pattern Prediction Software

Award Year / Program / Phase: 2006 / STTR / Phase II
Agency / Branch: DOD / USAF
Research Institution: UNIV. OF MINNESOTA, SCHOOL OF MATH.
Principal Investigator: Randy Paffenroth, Scientist
Award Amount: $749,993.00
RI Contact: Kevin McKoskey
Abstract:
The present text proposes development of a software infrastructure for the prediction of antenna patterns on and around aircraft, for frequencies throughout the electromagnetic spectrum - including UHF through L bands as well as arbitrarily high frequencies - and applicable to aircraft which, like… More

Automation of Analysis Model Creation

Award Year / Program / Phase: 2006 / STTR / Phase I
Agency / Branch: DOD / NAVY
Research Institution: CASE WESTERN RESEARCH UNIV.
Principal Investigator: Christophe Geuzaine, Assistant Professor
Award Amount: $69,982.00
RI Contact: Eric M. Cottington
Abstract:
The present text proposes the development of a computational infrastructure to enable rapid creation of high-quality conforming finite-element computational models---compatible with all existing finite-element simulation tools. The specific proofs-of-concept to be pursued in the Phase I will revolve… More

Fast, High-Order algorithms for Many-Core and GPU-based Computer Architectures

Award Year / Program / Phase: 2010 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: Rice University
Principal Investigator: Akash Anand, Scientits
Award Amount: $99,896.00
RI Contact: Kendrea Vallien
Abstract:
We propose algorithm development and efficient GPU implementation of numerical PDE solvers based on four novel high-order methodologies: 1) High-order Discontinuous Galerkin approaches, 2) Fast High-Order boundary integral methods, 3) Convergent FFT-based methodologies for evaluation of… More

Advanced Computational Methods for Study of Electromagnetic Compatibility

Award Year / Program / Phase: 2010 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: Case Western Reserve University
Principal Investigator: Akash Anand, Scientist
Award Amount: $99,860.00
RI Contact: Derek M. Humphrey
Abstract:
The present text proposes development of efficient, accurate and rapidly-convergent algorithms for the simulation of propagation and scattering of electromagnetic fields within and around structures that (i) Consist of complex combinations of penetrable materials as well as perfect and imperfect… More

MIMO Radar Clutter Modeling

Award Year / Program / Phase: 2012 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: Kansas State University
Principal Investigator: Timothy Elling, Scientist – (626) 441-2782
Award Amount: $99,608.00
RI Contact: Paul R. Lowe
Abstract:
ABSTRACT: We propose development of an efficient physics-based computational capability for simulation of complex MIMO-radar clutter, with applicability to single- and multi-platform transmitter-receiver systems, which accounts accurately, on the basis of Maxwell's equations, for all… More

Advanced Computational Methods for Study of Electromagnetic Compatibility

Award Year / Program / Phase: 2012 / STTR / Phase II
Agency / Branch: DOD / USAF
Research Institution: Case Western Reserve University
Principal Investigator: Timothy Elling, Scientist – (626) 441-2782
Award Amount: $749,959.00
RI Contact: Derek M. Humphrey
Abstract:
ABSTRACT: This effort focuses on development of efficient algorithms for the simulation of propagation and scattering of electromagnetic fields within and around structures that (i) Consist of complex combinations of penetrable materials as well as perfect and imperfect conductors, and, (ii)… More

Methodologies for Accurate Assessment of Target Characteristics

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: DOD
Principal Investigator: Timothy Elling, Scientist – (626) 441-2782
Award Amount: $99,690.00
Abstract:
We propose development of accurate and efficient exact-physics computational electromagnetics (CEM) solvers for accurate evaluation of RF signature characteristics of complex targets of interest to MDA. For accuracy and modeling flexibility the proposed codes combine novel fast, high-order… More

Minimum-time optimization of in-situ antenna performance

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: DOD
Principal Investigator: Luke Voss, Scientist – (818) 248-2142
Award Amount: $149,463.00
Abstract:
We propose development of a software package which, based on use of accurate and efficient exact-physics computational electromagnetics (CEM) solvers together with a combination of automated and interactive optimization tools, will enable optimization of the properties of on-platform mounted-antenna… More

Real-time Location of Targets in Cluttered Environments

Award Year / Program / Phase: 2013 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: University of New Hampshire
Principal Investigator: Edwin Jimenez, Scientist – (850) 980-6875
Award Amount: $149,963.00
RI Contact: Peter M. Lester
Abstract:
ABSTRACT: We propose development of an efficient physics-based computational capability for real-time radar location of targets in cluttered environments. Our effort will focus, in particular, on air traffic targets in static natural environments that include dynamic effects such as spinning… More

Minimum-time optimization of in-situ antenna performance

Award Year / Program / Phase: 2013 / SBIR / Phase II
Agency: DOD
Principal Investigator: Luke Voss, Scientist – (818) 248-2142
Award Amount: $437,450.00
Abstract:
We propose development of a software capability which, based on use of accurate and efficient exact-physics computational electromagnetics (CEM) solvers together with a combination of automated and interactive optimization tools, will enable optimization of the properties of on-platform… More